LPS-induced monocarboxylate transporter-1 inhibition facilitates lactate accumulation triggering epithelial-mesenchymal transformation and pulmonary fibrosis

The epithelial-mesenchymal transformation (EMT) process of alveolar epithelial cells is recognized as involved in the development of pulmonary fibrosis. Recent evidence has shown that lipopolysaccharide (LPS)-induced aerobic glycolysis of lung tissue and elevated lactate concentration are associated with the pathogenesis of sepsis-associated pulmonary fibrosis. However, it is uncertain whether LPS promotes the development of sepsis-associated pulmonary fibrosis by promoting lactate accumulation in lung tissue, thereby initiating EMT process. We hypothesized that monocarboxylate transporter-1 (MCT1), as the main protein for lactate transport, may be crucial in the pathogenic process of sepsis-associated pulmonary fibrosis. We found that high concentrations of lactate induced EMT while moderate concentrations did not. Besides, we demonstrated that MCT1 inhibition enhanced EMT process in MLE-12 cells, while MCT1 upregulation could reverse lactate-induced EMT. LPS could promote EMT in MLE-12 cells through MCT1 inhibition and lactate accumulation, while this could be alleviated by upregulating the expression of MCT1. In addition, the overexpression of MCT1 prevented LPS-induced EMT and pulmonary fibrosis in vivo. Altogether, this study revealed that LPS could inhibit the expression of MCT1 in mouse alveolar epithelial cells and cause lactate transport disorder, which leads to lactate accumulation, and ultimately promotes the process of EMT and lung fibrosis. Supplementary Information The online version contains supplementary material available at 10.1007/s00018-024-05242-y.


Introduction
Sepsis is characterized by an dysregulated host response to infection accompanied by acute organ dysfunction and a high risk of death [1].Although numerous studies have improved the early identification and treatment of sepsis in the past few years, acute respiratory distress syndrome (ARDS) caused by sepsis and the concomitant lung fibrosis led to poor outcomes in patients [2,3].Therefore, an in-depth study of the pathogenesis of sepsis-associated pulmonary fibrosis, timely blocking early stage of sepsis-associated pulmonary fibrosis, and improving the prognosis of patients are urgent problems to be solved in the clinical practice of intensive care medicine.
The epithelial-mesenchymal transformation (EMT) refers to the biological process of epithelial-to-mesenchymal transition, which plays an important role in embryonic development, chronic inflammation, tissue remodeling, cancer metastasis, and a variety of fibrotic diseases [4][5][6].There is growing evidence that EMT process in alveolar epithelial cells is closely associated with the pathogenesis of pulmonary fibrosis [4,[7][8][9]].Kottmann's study in 2012 showed that lactate could reduce the pH value of extracellular fluid and promote the activation of latent Transforming growth factor-β1 (TGF-β1) to TGF-β1, which could initiate the EMT process and finally progress to pulmonary fibrosis [10,11].Our previous studies have found lactate accumulation in lung tissue of mice model of sepsis-associated pulmonary fibrosis [12,13].However, it is uncertain how LPS facilitates the development of sepsis-associated pulmonary fibrosis by promoting lactate accumulation in lung tissue and thus initiating EMT process.Under normal circumstances, the lactate produced by cell metabolism could be transported into the cells by monocarboxylic acid transporter-1 (MCT1), thereby reducing the concentration of lactate in the extracellular fluid [14].LPS has been shown to inhibit MCT1 expression [15].Therefore, we hypothesized that LPS inhibition of MCT1 expression may play an important role in lactate accumulation and EMT during the process of sepsisassociated pulmonary fibrosis.
In this study, in vitro and in vivo experiments have been engaged to explore the connections among MCT1 modulation, extracellular lactate accumulation, EMT and pulmonary fibrosis.Our study proved that LPS could inhibit the expression of MCT1 in mouse alveolar epithelial cells and cause lactate transport disorder, which leads to lactate accumulation in extracellular fluid, and ultimately promotes the process of EMT and tissue fibrosis.Our findings may afford opportunities to seek promising therapeutic targets of sepsis-associated pulmonary fibrosis.

Animal grouping and treatments
A total of 48 healthy mice were randomly divided into sham (n = 6), LPS (n = 18), MCT1OE (n = 6), MCT1OE + LPS (n = 18) groups.In LPS group and MCT1OE + LPS group, animals were injected intraperitoneally with LPS (5 mg/kg, Escherichia coli O127:B8, Sigma, USA) for 3 consecutive days while mice were injected with saline instead in sham group and MCT1OE group, which was optimized on the basis of other investigator and our previous research [13,16,17].
In order to establish an alveolar epithelial cells specific MCT1-overexpressing (MCT1OE) mouse model, intratracheal administration of 40 μl MCT1OE adenoassociated virus (AAV) mixture (AAV concentration: 5 × 10 12 VG/ml), purchased from Genomeditech (Shanghai, China), was delivered to each mouse 4 weeks before LPS (saline) injection.The mice were anesthetized and sacrificed 7 days after the administration of LPS or saline, with the serum, lungs and bronchoalveolar lavage fluid (BALF) samples collected for the following investigations.
All animals were supported by Shanghai SLAC Laboratory Animal, China.Male C57BL/6 mice aged 7-8 weeks (20-25 g) were housed under diurnal lighting status with food and water ad libitum.

MCT1OE cell lines
We subcloned a coding sequence (Gene ID: 20501) of MCT1 into PGMLV-6395 vector to generate lentiviral for overexpression of MCT1.Then human embryonic kidney 293 T (HEK 293 T) cells were co-transfected with packaging mix including MCT1OE lentivirus or negative control vector.These cells were cultured for 48 h.After the incubation, the packaged lentiviruses including MCT1OE lentivirus or negative control vector (NC group) were collected and used to infect MLE-12 cells respectively.After 2 days, stable-transfected cells were selected with 10 µg/mL of puromycin (Genomeditech, China).

Histopathology and immunofluorescence analysis
The lung tissues were fixed in 4% formaldehyde, embedded in paraffin, sliced and dewaxed.Afterwards, the lung sections were stained with hematoxylin and eosin (H&E) and as well as Masson's trichrome following standard protocols.
In addition, antigens of lung sections were recovered with citric acid buffers.After exposure to 10% bovine serum albumin (BSA) for one hour, the sections were incubated with primary antibodies against Vimentin (A19607, Abclonal, China), E-cadherin (14472S, CST, USA), and MCT1 (A3013, Abclonal, China) overnight at 4 ℃.After triple washing, sections were incubated with fluorescein-conjugated antibody for 1 h.Finally, the images were captured by fluorescence microscope (Leica, DMi8, Germany) after nucleus staining with 4′6-diamino-2-phenylindole (DAPI, Southern Biotech, USA).Fiji software (2.15.1) was used to quantify the immunofluorescence in the result.The mean gray value (fluorescence intensity/area) of each immunofluorescence image was detected and analyzed [18].

Cell immunofluorescence
MLE cells were seeded on the coverslip, and then were fixed with 4% paraformaldehyde at room temperature (RT) for 15 min.After incubation with blocking buffer (10% BSA) at RT for 30 min, cells were then permeabilized in 0.1% Triton X-100 for 15 min at RT. Then cells were incubated with primary antibodies diluted in blocking buffer overnight at 4 °C in the humid chamber.After washing for three times in PBS, cells were then stained with secondary antibodies conjugated with fluorescence.Then the cells were washed in PBS with three times again before mounting with DAPI (Southern Biotech, USA).The primary antibodies used in the study was anti-Vimentin (A19607, Abclonal, China).Images were captured using the confocal microscope (Olympus Fluoview FV3000).As mentioned above, each immunofluorescence image was detected and analyzed by Fiji software.

Lactate level assay
The levels of lactate in supernatants of MLE-12 cell medium were measured with a lactate assay kit (Nanjing Jiancheng Bioengineering, China).The cell supernatant was thawed on ice after being stored at ultra-low temperature.The working solution was added to the centrifuge tube according to the instructions, followed by the addition of the test samples and the blank samples.After sample addition was completed, the centrifuge tubes were placed in a 37 °C water bath and the termination solution was added after 10 min.Subsequently, 250 µl of the solution were transferred sequentially to a 96-well plate with a pipette, and the absorbance of the solution was measured at a wavelength of 530 nm using a microplate reader (Berthold, LB942s, Germany).Sample concentrations were calculated by the following formula (A = (a−b)/ (c−b) × C × M, A = Lactate concentration, a = OD value of the test samples, b = OD value of the blank samples, c = OD value of the standard samples, C = 3 mmol/L, M = multiple of dilution).Meanwhile, the levels of lactate in BALF of mice were detected with mouse lactate ELISA kit (Lenton, China).BALF was collected by insufflation of 500 µL of cold phosphate-buffered saline into the alveoli of mice through an endotracheal tube.The supernatant was obtained by centrifugation at 3000 g for 10 min and then stored in an ultra-low temperature refrigerator.The experiment procedure followed the manufacturer's instructions.

Statistical analysis
All experiments were repeated three times at least.The continuous data were presented as mean ± SD and analyzed using GraphPad Prism 8.0 software (USA).One-way analysis of variance (ANOVA) was conducted for multiple comparisons.Student's t-test (two tailed) was used to compare the difference between two groups.A p-value of < 0.05 was considered as a significant difference.

Abundant exogenous lactate stimulated MCT1 expression and EMT
MCT1 is a key protein in cell membrane transporting monocarboxylic acid.Its expression is closely related to the lactate shuttle.In order to investigate the relationship between lactate and EMT in MLE-12 cells, exogenous lactate of 10 mmol per liter (mM) and 20 mM concentrations were added to MLE-12 medium.After culture for 48 h, the expression levels of proteins in cells were detected by western blot.The results showed both moderate level (10 mM) and abundant level (20 mM) of lactate promoted the expression of MCT1 significantly (Fig. 1A).Lactate detection kit was used to assess concentrations of lactate in the supernatants of cell medium.The result showed that the lactate levels were increased in both Lac 10 mM and Lac 20 mM group, and the lactate level in Lac 20 mM group was significantly higher than that in Lac 10 mM group (Fig. 1B).Moderate lactate changed expression fold of E-cadherin, Vimentin and α-SMA slightly indicating nonoccurrence of EMT.However, high level of lactate (20 mM) notably promoted expression fold of Vimentin and α-SMA, and decreased the expression of E-cadherin which revealed apparent EMT (Fig. 1E-H).Meanwhile, Vimentin protein was fluorescently labeled and detected by confocal microscopy (Fig. 1D).Fiji software was used to quantify the immunofluorescence and the result consistent with western blot findings (Fig. 1C).

MCT1 inhibition further enhanced lactate-mediated EMT
To determine the role of MCT1 involved in the lactatemediated EMT process in alveolar epithelial cells, the expression of MCT1 was knocked down by MCT1-siRNA in MLE-12 cells (Fig. 2A).The results showed that MCT1-siRNA sharply raised concentration of lactate in the MLE-12 culture supernatant after lactate (10 mM) exposure compared with lactate treatment alone (Fig. 2B).The EMT symbols detection showed that the epithelial marker protein E-cadherin was significantly decreased in the siMCT1 + Lac 10 mM group (Fig. 2C), while the mesenchymal marker proteins, Vimentin and α-SMA, were significantly increased (Fig. 2D, E).Immunofluorescence results showed Vimentin protein was upregulated apparently in siMCT1 + Lac 10 mM group with higher intensity of green fluorescence compared with other groups (Fig. 2F, G).These results indicated that inhibition of MCT1 enhanced EMT process despite with low level of lactate exposure, while EMT was absent in Lac 10 mM group.We used the A549 cell Fig. 3 MCT1 upregulation blocked lactate-induced EMT.MLE-12 and MCT1OE cells were treated with PBS (NC and MCT1OE group) or lactate (20 mM) (Lac 20 mM and MCT1OE + Lac 20 mM group) respectively.MCT1 expression was quantified by western blot analysis (A).Levels of lactate in cell culture supernatants were quantified by colorimetric method (B).The expression of EMT-related protein (E-cad, Vimentin and ɑ-SMA) was detected by Western blot (C-E).Cells were stained with fluorophorelabeled antibodies against Vimentin (Alexa Fluor 488, green) and DAPI stain was used to detect nuclei (blue), while the mean fluorescence intensity was quantified by Fiji software (Original magnification × 600, scale bars correspond to 30 µm, F, G).Data are expressed as means ± SD, *p < 0.05, **p < 0.01, ***p < 0.001, ****p < 0.0001 vs. NC group; # p < 0.05, ## p < 0.01, #### p < 0.0001 vs. Lac 20 mM group; △ p < 0.05 vs MCT1OE group (ANOVA) ◂ line to repeat the experiments and obtained similar results (See Supplementary Fig. 1).

MCT1 upregulation blocked lactate-induced EMT
In order to further explore the role of MCT1 in lactateinduced EMT in MLE-12 cells, MCT1OE lentivirus was transfected with MLE-12 cells to obtain MCT1OE stable cell line.Afterwards, lactate (20 mM) was used to stimulate MLE-12 cells and MCT1OE cells.The protein expression levels of MCT1 were detected by western blot.It was found that MCT1OE significantly improved MCT1 expression, while extra lactate (20 mM) further increased MCT1 level (Fig. 3A).Lactate assay exhibited notably descending level of lactate in cell culture supernatants in MCT1OE + Lac 20 mM group compared with Lac 20 mM group (Fig. 3B).To verify whether MCT1 overexpression could inhibit EMT process induced by lactate, EMT marker proteins were tested.The results showed that E-cad was significantly reduced in the Lac 20 mM group (Fig. 3C), while Vimentin and ɑ-SMA proteins were increased (Fig. 3D, E).Nevertheless, MCT1OE reversed the changes of EMT marker proteins (Fig. 3C-E).Immunofluorescence results also showed that MCT1 overexpression with lactate (20 mM) exposure did not change the fluorescence intensity of Vimentin proteins (Fig. 3F, G).

LPS promoted EMT in MLE-12 cells through MCT1 inhibition and lactate accumulation
To investigate cellular effect of LPS on MCT1 expression and lactate metabolism, MLE-12 cells were stimulated by a combination of lactate and LPS for 48 h.Western blot assay showed that the expression of MCT1 in the Lac 10 mM group was higher compared with control (CON) group, the expression of MCT1 in the LPS group was lower than CON group, and the expression of MCT1 in the Lac 10 mM + LPS group was lower compared with Lac 10 mM group (Fig. 4A).In order to examine the change of lactate in the supernatant, the lactate detection kit was applied.The lactate concentrations in the CON group and Lac 10 mM group were similar.The level of lactate in the LPS group was significantly higher compared with CON group, and lactate levels in Lac 10 mM + LPS group was also higher than Lac 10 mM group (Fig. 4B).The data above indicates that LPS could inhibit the expression of MCT1 and cause impaired intracellular transport of lactate and increased level of lactate in the extracellular fluid.Meanwhile, EMTrelated marker proteins were detected by western blot.E-cad was decreased in the LPS group and Lac 10 mM + LPS group compared with CON group and Lac 10 mM group respectively (Fig. 4C).In the contrary, Vimentin and ɑ-SMA proteins were significantly increased in the cells (Fig. 4D, E).The Vimentin protein was also fluorescently detected by antibody labeled with Alexa Fluor 488, observing that Vimentin was significantly enhanced by LPS alone or combination of LPS and lactate (10 mM) (Fig. 4F, G).We used the A549 cell line to repeat the experiments and obtained similar results (See supplementary Fig. 2).

MCT1 overexpression attenuated LPS-induced EMT in MLE-12 cells
To further investigate whether LPS led to reduction of MCT1 and disfunction of lactate metabolism and EMT, the MCT1OE cells were subjected to LPS for 48 h.Western blot detection of MCT1 protein showed that LPS-treated cells were observed decreased level of MCT1, while MCT1OE cells overcame LPS injury exhibiting ascending level of MCT1 (Fig. 5A).The lactate concentration in the cell supernatant was detected by colorimetric method, and it was found that the LPS-stimulated MCT1OE cells showed a significant decrease in lactate concentration compared with LPS group (Fig. 5B).According to western blot detection of E-cadherin protein in different groups, we found that the expression of E-cadherin protein in the MCT1OE + LPS group was reversed compared with LPS group (Fig. 5C), as well as Vimentin and ɑ-SMA protein (Fig. 5D, E).The cellular expression of Vimentin protein was detected by immunofluorescence technique, and the results were in consistent with western blot findings (Fig. 5F, G).In brief, it was indicated that increased MCT1 expression could reverse LPS-induced lactate accumulation and EMT process in mouse alveolar epithelial cells.
Similarly, E-cad (red), MCT1 (green) and vimentin (green) proteins were labeled by immunofluorescent antibodies to detect the coexpression of proteins, and the results were consistent with those of western blot (Fig. 6G, H).

MCT1 overexpression minimized sepsis-associated pulmonary fibrosis
To establish an alveolar epithelial cells specific MCT1OE mouse model, a volume of 50μl MCT1OE AAV mixture (titer: 5e12 vg/ml) was intratracheally administrated 4 weeks before the LPS or saline intraperitoneal injection.As shown in blot results, MCT1 expression was augmented in either MCT1OE group or MCT1OE + LPS group compared with CON or LPS group (Fig. 7A).In addition, we found that LPS raised lactate concentration in BALF, while overexpression of MCT1 in mice could reverse LPS-induced elevation of lactate level (Fig. 7B).It was also demonstrated that MCT1 overexpression reversed LPS-induced pulmonary EMT evidently according to western blot detection of EMT marker proteins (Fig. 7C-E).Similarly, E-cad (red) and vimentin (green) proteins were labeled by immunofluorescent antibodies to detect the coexpression of proteins, and the results were consistent with those of western blot (Fig. 7H-J).Subsequently, the expression of COL1A1 protein in lung tissues was detected by western blot (Fig. 7F), associated with H&E and Masson staining for pulmonary fibrosis observation.The overexpression of MCT1 in mice could reverse the damage of alveolar structure and collagen deposition caused by LPS (Fig. 7G).In short, these findings indicated that LPS blocked MCT1 expression, led to lactate accumulation, triggered EMT, and consequently generated pulmonary fibrosis in mice.This septic lung damage can be reversed by MCT1 overexpression thus preventing LPS-induced pulmonary fibrosis.

Discussion
Sepsis is a life-threatening organ dysfunction caused by a dysregulated host response to infection [19], while a sharply rise of serum lactate always indicates deteriorative outcomes.Researchers have found that there is an increased level of aerobic glycolysis and lactate production in fibrotic lung tissue [10,11,20], and our previous research also demonstrated that LPS could induce lung fibroblast aerobic glycolysis and lactate production through PI3K-Akt-mTOR/PFKFB3 pathway activation, thus promoting collagen synthesis and pulmonary fibrosis [13].The role of elevated lactate levels in the process of LPS-induced sepsis-associated pulmonary fibrosis is still unclear.In this study, we demonstrated that during sepsis, LPS inhibits the expression of MCT1, causes abnormal accumulation of lactate in extracellular fluid, thereby initiating the EMT process of alveolar epithelial cells, and finally progresses to pulmonary fibrosis.What's more, upregulating the expression of MCT1 could restore normal transport of lactate, thus preventing EMT process and pulmonary fibrosis in vitro and in vivo.
EMT is a process during which cells lose their epithelial characteristics and gain mesenchymal properties [21].Studies have shown that EMT is one of the important sources of lung fibroblasts, which is closely related to the development of pulmonary fibrosis [7,22,23].Some studies have found that the progression of sepsis-associated pulmonary fibrosis is also related to the initiation of EMT, and the EMT process begins in the early stage of the disease [24].This study has demonstrated that lactate above a certain concentration could trigger the process of EMT in alveolar epithelial cells, thereby promoting pulmonary fibrosis.By stimulating mouse alveolar epithelial cells with varying concentrations of exogenous lactate, we have observed that high concentrations of lactate induced EMT while moderate concentrations did not.In vitro, the up-regulation of MCT1 expression can regulate lactate transport and reduce extracellular lactate concentration, thereby reversing the EMT process of alveolar epithelial cells.Our findings also demonstrate that upregulating MCT1 expression can reverse the EMT process and reduce the degree of lung fibrosis in vivo.This study confirmed that the abnormally elevated lactate level in lung tissue can induce the EMT process of alveolar epithelial cells, which may be an important factor Fig. 5 MCT1 overexpression attenuated LPS-induced EMT in MLE-12 cells.MLE-12 and MCT1OE cells were treated with PBS (NC and MCT1OE group) or LPS (1μg/mL) (LPS and MCT1OE + LPS group) respectively.MCT1 expression was quantified by western blot analysis (A).Levels of lactate in cell culture supernatant were quantified by colorimetric method (B).The expression of EMTrelated proteins (E-cad, Vimentin and α-SMA) were detected by western blot (C-E).Cells were stained with fluorophore-labeled antibodies against Vimentin (green) and DAPI stain was used to detect nuclei (blue).The mean fluorescence intensity was quantified by Fiji software (original magnification × 600, scale bars correspond to 30 µm, F, G).Data are expressed as means ± SD, **p < 0.01, ***p < 0.001, ****p < 0.0001 vs. NC group; ## p < 0.01, ### p < 0.001 vs. LPS group (ANOVA) ◂ in the occurrence and development of sepsis-associated pulmonary fibrosis.
Lactate is a byproduct of glucose metabolism that can be generated via either aerobic or anaerobic glycolysis [25].In patients with sepsis and septic shock, hyperlactatemia is frequently observed, and persistent hyperlactatemia and lactic acidosis are strongly associated with mortality in patients with sepsis [26].In the field of critical care medicine, lactate has traditionally been viewed as a metabolite produced by hypoxic cells undergoing anaerobic glycolysis during septic shock [27].However, with further research into lactate metabolism, Brooks et al. have proposed the concept of "lactate shuttle", which highlights lactate's crucial role as a carbon source for aerobic energy production and gluconeogenesis throughout the body [28].Lactate can either be utilized by its producing cells or transported to neighboring or distant tissues and organs.MCT1 is a crucial family of transmembrane transporters found in mammalian cell membranes, responsible for the transportation of monocarboxylate metabolites such as lactate across the membrane [14,29].Under normal conditions, MCT1 facilitates lactate influx into cells from extracellular fluid, thereby reducing extracellular lactate concentration [30][31][32].
MCT1 is also expressed in alveolar epithelial cells, which can transport lactate produced by glycolysis of adjacent cells or distant organs into the cell interior, thereby reducing the local lactate concentration in lung tissue [33].In this study, in order to clarify the effect of MCT1 on lactate metabolism, siRNA was used to inhibit the expression of MCT1 in MLE-12 cells while MCT1OE cell line was utilized as well.When a moderate dose of exogenous lactate was added to the cell culture medium, MCT1 facilitated its transport into the cells, thus the addition of 10 mM lactate did not result in an increase in its concentration within the supernatant of the Lac 10 mM group compared to that of the control group, nor did it induce EMT in alveolar epithelial cells.However, upon inhibition of MCT1 expression via siRNA, there was a significant rise in lactate concentration within the supernatant of siMCT1 + Lac 10 mM group as opposed to that observed for Lac 10 mM group, which eventually caused EMT of alveolar epithelial cells (refer to Fig. 2).In addition, after adding high concentration of exogenous lactate to the cell culture medium, the lactate concentration in the supernatant of Lac 20 mM was significantly higher than that of the control group, which may exceed the transport capacity of MCT1 and lead to EMT in the Lac 20 mM group.However, after overexpression of MCT1 expression, the concentration of lactate in the supernatant of the MCT1OE + Lac 20 mM group was lower than that of the Lac 20 mM group, and the degree of EMT was alleviated (refer to Fig. 3).By regulating the expression of MCT1, the extracellular lactate concentration can be reduced, thereby preventing the EMT process of alveolar epithelial cells.
Our previous study confirmed that LPS leads to increased lactate production during sepsis by activating the key glycolytic enzyme PFKPF3 [13].Meanwhile, LPS could also inhibit the transport of lactate into the cells by inhibiting the expression of MCT1, leading to further increase of extracellular lactate concentration.As we mentioned before, lactate is a trigger of TGF-β1, extracellular accumulation of lactate can cause a decrease in extracellular pH and activate TGF-β1, EMT process was then initiated, and lung fibrosis subsequently [10].In vitro, we used LPS combined with moderate dose of lactate to stimulate mouse alveolar epithelial cells.In Lac 10 mM group, MCT1 expression was higher than that in the control group, lactate level in the supernatant was not different from that in the control group, and EMT process did not occur; In LPS + Lac 10 mM group, MCT1 expression was significantly lower than that in Lac 10 mM group, resulting in a significant increase in the concentration of lactate in the supernatant, which further led to EMT of alveolar epithelial cells.In vivo, LPS reduced MCT1 protein in lung tissue, increased lactate concentration in BALF, and caused EMT and tissue fibrosis.Overexpression of MCT1 could significantly reduce the level of BALF lactate, alleviate LPS-induced EMT process, and reverse the process of pulmonary fibrosis.
Our research elucidated that the process of MCT1 transporting lactate could be inhibited by LPS during sepsis, which caused extracellular accumulation of lactate, thus induced EMT in the alveolar epithelial cells and led to pulmonary fibrosis eventually.We creatively identified the important role of lactate and its transporter MCT1 in the EMT process during sepsis-associated pulmonary fibrosis, implying that precise regulation of MCT1 could be a potential therapeutic target in the near future.However, there are also several limitations in this study.Intracellular lactate levels were not examined, which needs to be explored in our future studies.Besides, although ◂ our current study demonstrated that lactate accumulation induced by MCT1 inhibition during sepsis did play a role in LPS-induced EMT and pulmonary fibrosis, the role of other monocarcarboxylates cannot be excluded, since MCT1 can also transport other monocarboxylates across the cell membrane as well.Future studies will be carried out to investigate this issue in detail.What's more, the concrete mechanism of how lactate promoting or LPS inhibiting MCT1 expression during sepsis is still unknown, which warrants further investigation.Based on previous reports, it is hypothesized that lactate or LPS may affect MCT1 expression in alveolar epithelial cells through GPR81-peroxisome proliferator-activated receptor gamma coactivator-1α (PGC-1α) pathway [15,[34][35][36].

Fig. 1
Fig. 1 Abundant exogenous lactate stimulated MCT1 expression and EMT.MLE-12 was treated with 10 mM or 20 mM lactate respectively for 48 h.MCT1 expression was quantified by western blot analysis (A).Levels of lactate in cell culture supernatants were quantified by colorimetric method (B).E-cad, Vimentin and ɑ-SMA expression levels were quantified by western blot (E-H).MLE-12

Fig. 6
Fig.6LPS diminished MCT1 expression leading to EMT and pulmonary fibrosis.Mice were divided into control and LPS-treated group administrated intraperitoneally with saline or LPS (5 mg/ kg/d for 3 consecutive days) respectively.Pulmonary fibrosis was measured by H&E and Masson staining (A).Level of COL1A1, MCT1 and EMT relevant markers (E-cad, Vimentin and ɑ-SMA) were quantified by western blot analysis (B-F).Coexpression of E-cadherin, MCT1 and Vimentin Cells were assessed fluorescently and quantified by Fiji software (G, H).Original magnification × 600, scale bars correspond to 30 µm.Data are expressed as means ± SD, **p < 0.01, ***p < 0.001 vs. CON group (ANOVA)